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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/75928


    Title: A Study of Deep Reinforcement Learning on Mobile Traffic Forecasting and Offloading
    Authors: 江九地;CHIANG, CHIU-TI
    Contributors: 通訊工程學系
    Keywords: 深度增強式學習;深度學習;負載平衡;流量預測;Deep Learning;Deep Reinforcement Learning;Offloading;Mobile Traffic Forecasting
    Date: 2018-01-23
    Issue Date: 2018-04-13 11:18:14 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 隨著移動網路的爆炸性成長,現行的基地台架構將難以負擔未來的流量需求。其中一個解決方式是廣建小型基地台,將大型基地台的流量分流至小型基地台實現負載均衡。
    然而,移動網路的流量需求是隨時間改變的,這將造成在不需要的時段開啟過多閒置的小型基地台,因此需要一套機制台控制小型基地台的部屬與使用。
    在考量能源效率下,作者提出基於深度增強式學習並結合流量預測以預先反應的角度來解決小型基地台部署時的能源問題。
    流量負載平衡框架由環境模型、流量模型和決策模型組成。
    整個負載平衡環境是建立在多個大型基地台下覆蓋多個小型基地台。
    流量預測模型會根據歷史的流量狀況預測下個時間流量的最大值、平均值和最小值達到多任務聯合學習的優勢。
    作者調查並研究了深度學習的各種方法在流量預測上的表現,這些方法包括了 CNN、3D CNN 和 CNN與RNN的結合。
    在決策模型上,根據流量預測模型的輸出結果,使用了深度增強式學習進行決策,要預先開啟多少數量的小型基地台才能達到最佳的能源使用效率。
    最後,基於真實世界流量資料的實驗證明,隨著移動流量需求快速增長至超出一大型基地台的負荷,從流量預測的角度輔助決策可以更好的平衡大小型基地台間的負載。
    ;With the explosive growth in demand for mobile traffic, one of the promising solutions is to offload mobile traffic to small cells.
    However, mobile traffic is time-varying which will cause large numbers of small cells were turned on at an unnecessary period.
    In consideration of the energy problem, the author proposed a deep reinforcement learning based mobile offloading architecture with traffic prediction to solve the problem in a proactive manner.
    The offloading architecture is composed of three components, environment, traffic prediction model, and decision model.
    The environment comprises multiple macro cells with numerous small cells under their converge to offload mobile traffic.
    The traffic prediction model is a multi-task learning architecture which can learn next epoch′s maximum, average, and minimum mobile traffic at the same time.
    The author studied multiple popular deep learning approaches, including RNN, 3D CNN, and the combination of CNN and RNN and examined what kind of structure would obtain better prediction accuracy in time series data set, realistic telecommunication data.
    And in the decision model, the author implemented a deep Q network which takes charge of how many small cells should be turned on among a macro cell according to the prediction result coming from the traffic prediction model.
    The experiments were conducted on realistic mobile data to prove the mobile traffic prediction is beneficial to offloading policy when the traffic demand has skyrocketed.
    Appears in Collections:[Graduate Institute of Communication Engineering] Electronic Thesis & Dissertation

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